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1. Personality, spatiotemporal ecological variation and resident/explorer movement syndromes in the sleepy lizard

   https://doi.org/10.1111/1365-2656.13616  

   Michelangeli, Marcus ; Payne, Eric ; Spiegel, Orr ; Sinn, David L. ; Leu, Stephan T. ; Gardner, Michael G. ; Sih, Andrew ( November 2021 , Journal of Animal Ecology)

   Individual variation in movement is profoundly important for fitness and offers key insights into the spatial and temporal dynamics of populations and communities. Nonetheless, individual variation in fine‐scale movement behaviours is rarely examined even though animal tracking devices offer the long‐term, high‐resolution, repeatable data in natural conditions that are ideal for studying this variation. Furthermore, of the few studies that consider individual variation in movement, even fewer also consider the internal traits and environmental factors that drive movement behaviour which are necessary for contextualising individual differences in movement patterns.

   In this study, we GPS tracked a free‐ranging population of sleepy lizardsTiliqua rugosa, each Austral spring over 5 years to examine consistent among‐individual variation in movement patterns, as well as how these differences were mediated by key internal and ecological factors.

   We found that individuals consistently differed in a suite of weekly movement traits, and that these traits strongly covaried among‐individuals, forming movement syndromes. Lizards fell on a primary movement continuum, from ‘residents’ that spent extended periods of time residing within smaller core areas of their home range, to ‘explorers’ that moved greater distances and explored vaster areas of the environment.

   Importantly, we also found that these consistent differences in lizard movement were related to two ecologically important animal personality traits (boldness and aggression), their sex, key features of the environment (including food availability, and a key water resource), habitat type and seasonal variation (cool/moist vs. hot/drier) in environmental conditions.

   Broadly, these movement specialisations likely reflect variation in life‐history tactics including foraging and mating tactics that ultimately underlie key differences in space use. Such information can be used to connect phenotypic population structure to key ecological and evolutionary processes, for example social networks and disease‐transmission pathways, further highlighting the value of examining individual variation in movement behaviour.

    

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2. Cloacal microbiomes of sympatric and allopatric Sceloporus lizards vary with environment and host relatedness

   https://doi.org/10.1371/journal.pone.0279288  

   Bunker, Marie E. ; Weiss, Stacey L. ( December 2022 , PLOS ONE)

   Ruiz-Rodriguez, Magdalena (Ed.)

   Animals and their microbiomes exert reciprocal influence; the host’s environment, physiology, and phylogeny can impact the composition of the microbiome, while the microbes present can affect host behavior, health, and fitness. While some microbiomes are highly malleable, specialized microbiomes that provide important functions can be more robust to environmental perturbations. Recent evidence suggests Sceloporus virgatus has one such specialized microbiome, which functions to protect eggs from fungal pathogens during incubation. Here, we examine the cloacal microbiome of three different Sceloporus species (spiny lizards; Family Phrynosomatidae)– Sceloporus virgatus , Sceloporus jarrovii , and Sceloporus occidentalis . We compare two species with different reproductive modes (oviparous vs. viviparous) living in sympatry: S . virgatus and S . jarrovii . We compare sister species living in similar habitats (riparian oak-pine woodlands) but different latitudes: S . virgatus and S . occidentalis . And, we compare three populations of one species ( S . occidentalis ) living in different habitat types: beach, low elevation forest, and the riparian woodland. We found differences in beta diversity metrics between all three comparisons, although those differences were more extreme between animals in different environments, even though those populations were more closely related. Similarly, alpha diversity varied among the S . occidentalis populations and between S . occidentalis and S . virgatus , but not between sympatric S . virgatus and S . jarrovii . Despite these differences, all three species and all three populations of S . occcidentalis had the same dominant taxon, Enterobacteriaceae . The majority of the variation between groups was in low abundance taxa and at the ASV level; these taxa are responsive to habitat differences, geographic distance, and host relatedness. Uncovering what factors influence the composition of wild microbiomes is important to understanding the ecology and evolution of the host animals, and can lead to more detailed exploration of the function of particular microbes and the community as a whole. 

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3. Glucocorticoids, energy metabolites, and immunity vary across allostatic states for plateau side‐blotched lizards ( Uta stansburiana uniformis ) residing in a heterogeneous thermal environment

   https://doi.org/10.1002/jez.2415  

   Hudson, Spencer B. ; Lidgard, Audrey D. ; French, Susannah S. ( September 2020 , Journal of Experimental Zoology Part A: Ecological and Integrative Physiology)

   Reptiles rely on thermal heat exchange to achieve body temperatures (T_body) conducive to maintaining homeostasis. Diurnal changes in the thermal environment are therefore liable to influence allostatic mediation of survival processes (e.g., immunity) during environmental challenges or stressors. However, the extent to whichT_bodyprompts individual variation in physiology remains largely unexplored in reptiles. Our study tested how circulating energy‐mobilizing hormone, energy metabolites, and immunity can vary across basal and stress‐induced allostatic states for plateau side‐blotched lizards (Uta stansburiana uniformis) residing in a heterogeneous thermal environment. We collected baseline and acute stress blood samples from male lizards to compare changes in plasma corticosterone (CORT), glucose, and bacterial killing ability (BKA) in relation to each other andT_body. We hypothesized each physiological parameter differs between allostatic states, whereby stress‐induced activity increases from baseline. At basal and stress‐induced states, we also hypothesized circulating CORT, glucose, and BKA directly correspond with each other andT_body. We found both CORT and BKA increased while glucose instead decreased from acute stress. At basal and stress‐induced allostatic states, we found CORT to be directly related toT_bodywhile BKA was inversely related to CORT. We also found BKA and glucose were directly related at baseline, but inversely related following acute stress. Overall, these results demonstrate allostatic outcomes from acute stress in a free‐living reptile and the role of temperature in mediating energetic state and immunity. Future research on reptilian allostasis should consider multiple environmental conditions and their implications for physiological performance and survival.

    

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4. Does spatial sorting explain leading edge personality types in a spider’s non‐native range?

   https://doi.org/10.1111/eth.13265  

   Chuang, Angela ; Riechert, Susan E. ( January 2022 , Ethology)

   Expanding populations are often characterized by phenotypic shifts across the range. Processes like spatial sorting predict that phenotypes may be distributed along a range based on dispersal ability, where the most dispersive individuals are found at the leading edges and the least dispersive remain at the population core. Thus, traits correlated to dispersal may also become spatially distributed in the same pattern.Cyrtophora citricolais an orb‐web spider with two expanding populations originating from the same core in its non‐native Florida range. Since spiders at the leading edges were previously found to differ in various personality traits from those at the core, we measured dispersal latency and likelihood in laboratory‐raised spiderlings to determine whether spatial sorting can account for these patterns. Only one of the two populations showed evidence of spatial sorting, suggesting this phenomenon is likely context dependent and is not always generalizable to expanding populations. Spiders from the leading edge of the eastern population were more dispersive than those at the core, although western spiders were the least dispersive of the three populations. Dispersal likelihood was correlated with the activity and exploratory tendencies of individuals. Population‐level differences we had previously observed for foraging aggression and activity were not found in the captive‐raised spiders, suggesting that they represent plastic responses to environmental conditions instead of being a result of dispersal‐correlated trait evolution. However, mean population‐level differences in exploration and boldness were maintained in captivity, suggesting that these behaviors have a heritable component. Overall, the eastern spiders were characterized as being bolder, whereas the western spiders were the least bold and exploratory. While this study provides evidence of spatial sorting of more dispersive, exploratory, and active individuals in the eastern population, the divergence in risk‐taking behaviors between the two populations highlights the potential context dependency in spatial sorting and the importance of understanding the interactions between natural and spatial selection.

    

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5. House sparrows exhibit individual differences in generalization when confronted with different novel stimuli

   https://doi.org/10.1111/eth.13374  

   McLaughlin, Allison L. ; Westneat, David F. ( April 2023 , Ethology)

   Generalization refers to the process by which animals assign different stimuli into cognitive categories based on their similarity/dissimilarity to previously experienced stimuli. Stimuli that strongly deviate from previous experience may be avoided due to their novelty (i.e., neophobia), while stimuli that are sufficiently similar to a known/recognized cue may elicit the same response as that cue (i.e., generalization). While generalization has been widely researched, few studies have examined among‐individual variance in its expression. Our study quantified among‐individual variation in neophobia and generalization in house sparrows (Passer domesticus) by placing a series of different objects next to each subject's food source on successive days and measuring the subject's latency to approach the food source in the presence versus absence of each object. Similar to previous work, we found that house sparrows are neophobic on average and exhibit significant among‐individual variance in neophobia. More interestingly, we found that the neophobic response declined across presentations of different novel objects. This implies that the sparrows generalized some aspect(s) of the objects. We also found significant among‐individual variance in the rate at which approach latency changed across this series, possibly reflecting individual differences in propensity to generalize. These results raise new questions about how neophobia, habituation, and generalization are linked and about the potential for selection to act on these traits under different ecological conditions.

    

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